Apparatus for mounting films and other inserts in cards



July 27, 1965 L. c. WILLIAMS ETAL 3,197,353

APPARATUS FOR MOUNTING FILMS AND OTHER INSERTS IN CARDS Original Filed March 28, 1957 1o Sheets-Sheet 1 ATTORNEYS July 27, 1965 L. c. w|LL|AMs ETAL 3,197,353

APPARATUS FOR MOUNTING FILMS AND OTHER INSERTS IN CARDS Original Filed March 28. 1957 10 Sheets-Sheet 2 f q- 5 w In |049 e |72 6 99| 9|8/ 2gsm/- \/-955 vw 953 /wv 985 i 985 985 984 m 988 855 982` 984 l 85o/ r 65| 852/ I 978/ 89s/'I INVENToRs LEO C. WILLIAMS MAM J ATTOR NEYS July 27, 1965 L. c. WILLIAMS ETAL 3,197,353

APPARATUS FOR MOUNTING FILMS AND OTHER INSERTS IN CARDS original Filed March 2a, 1957 1o sheets-sheet s 45 JNVENTQRS LEO C. WILLIAMS BY CLIFFORD P- ROUNSEFELL ATTRNEYS July 27, 1965 A L. c. WILLIAMS ETAL 3,197,353

APPARATUS Fon MOUNTING FILMS AND OTHER INSERTs 1N CARDS Original Filed March 28, 1957 10 Sheets-Sheet 4 llvl/Ezs'lroa Leo c. WILLIAMS CLIFFORD P. RGJNSEFELL ATTORNEYS July 27, 1965 L. c.w1LL|AMs ETAL 3,197,353-

APPARATUS FOR MOUNTING FILMS AND OTHER INSERTS IN CARDS Original Filed March 28. 1957 10 Sheets-Sheet 5 LEO C. WILLIAMS BY CLIFFORD P. ROUNSEFELL ATTORNEYS July 27, 1965 l.. c.w1L.| |AMs ETAL 3,197,353

APPARATUS FOR MOUNTING FILMS AND OTHER INSERTS IN CARDS Original Filed March 28, 1957 10 Sheets-Sheet 6 JNVENToRs LEO C WILLIAMS CLIFFORD P. ROUNSEFELL ATTORNEYS July 27, 1965 l.. c. WILLIAMS ETAL 3,197,353

APPARATUS FOR MOUNTING FILMS AND OTHER INSERTS IN CARDS Original Filed March 28, 1957 10 Sheets-Sheet 7 INVENTORS ,LEO C. WILLIAMS BY CLIFFORD P. ROUNSEFELL awl/L and 1/ ATTORNEYS July 27, 1965 L. c. WILLIAMS ETAL 3,197,353

APPARATUS FOR MOUNTING FILMS AND OTHER INSERTS IN CARDS Original Filed March 28, 1957 10 Sheets-Sheet 8 INVENTORS LEO C. WILLIAMS BY CLIFFORD P. ROUNSEFELL ATTORNEYS July 27, 1965 L. c. WILLIAMS ETAL 3,197,353

APPARATUS FOR MOUNTING FILMS AND OTHER INSERTS IN CARDS Original Filed Marjoh 28, 1957 10 Sheets-Sheet 9 INVENTORS LEO C. WILLIAMS CLIFFORD P ROUNSEFELL GIO ATTORNEYS July 27, 1965 l.. c. WILLIAMS ETAL 3,197,353

APPARATUS FOR MOUNTING FILMS AND OTHER INSERTS IN CARDS Original Filed March 28, 1957 10 Sheets-Sheet l0 Fr-:7- 21 L I UNTER IN V EN TORS LEO C, WILLIAMS CLIFFORD P. ROUNSEFELL galli/C MJ J ATTORNEYS United States Patent O 3,197,353 APPARATUS FOR MQUN'IDJG FILMS AND OTHER INSERT?) IN CARDS Leo C. Wiiliams, Pearl River, N.Y., and Clifford R.

Rounsefeli, Hillsdale, NJ., assignors to Minnesota Mining and Manufacturing Company, St. Paul, Minn., a corporation of Delaware @riginal application Mar. 28, 1957, Ser. No. 649,149, now Patent No. 2,987,099, dated June 6, 1961. Divided and this application July 27, 1960, Ser'. No. 45,632

21 Claims. (Cl. 155-366) This invention relates to apparatus which is particularly intended and adapted to produce classification cards, and other cards, each having an image bearing frame of micro-film mounted in an aperture in the card and s.,- cured to an adhesive sheet carried by the card and extending over the aperture, whereby each card may advantageously contain a representative visible image or picture record of the data recorded or to be recorded, and each film frame may be conveniently tiled, indexed, and classified as to subject matter.

One object of the present invention is to provide novel apparatus which is capable of performing operations on successive cards automatically, accurately and in a reliable manner preparatory to and for the purpose of mounting individual frames of micro-film or other like inserts in apertures in said cards, and of ultimately mounting such frames or inserts in the cards.

Still another object is to provide an independent motorized mechanism of novel construction for unwinding a supply roll of strip material, such as micro-film, and including operable means for forming the strip into a slack loop whereby feeding of said strip from said loop for subsequent operations thereon is facilitated without the load of said supply roll thereon, the operation of said mechanism and the unwinding of the strip from the supply roll being automatically controlled by said loop forming means in response to reduction of the loop to a given size as well as to enlargement of said loop to a given s1ze.

Another object is to provide novel means for rotatably and removably supporting a relatively heavy and large diameter supply roll of micro-film and the like.

Another object is to provide a novel method of intermittently feeding to a cutting device an image bearing strip, such as micro-film, whereby individual sections severed from said strip by said cutting device each will contain a full image with the latter properly centered thereon.

A further object is to provide a novel mechanism for feeding an image bearing strip, such as micro-film, to knife means for severing said strip into individual sections each of a predetermined length and containing a full image, wherein the strip is advanced iirst a short distance at slow speed so as to enable accurate scanning of the strip by a photo-electric cell and detection by the latter of a narrow line space between adjacent images, and then a further distance at a faster speed so as to quickly and accurately present the strip to said knife means with the center of said narrow line space substantially in registry therewith.

Another object is to provide a novel mechanism for successively receiving individual sections of strip material, such as image bearing frames of micro-film, at one locality, transferring the same from said locality to another locality, and mounting each section at said latter locality in an aperture in a card and against an adhesive sheet on said card.

The above and further objects and novel features of the present invention will more fully appear from the following detailed description when the same is read in con- ICC nection with the accompanying drawings. It is to be eX- pressly understood, however, that the drawings are for the purpose of illustration only and are not intended as a definition of the limits ofthe invention.

This application is a division of our copending patent application Serial No. 649,159, tiled March 28, 1957, now U.S. Patent No. 2,987,099, dated lune 6, 1961, and said application, as originally filed, forms a part of this disclosure and is incorporated herein by reference.

In the drawings, wherein like reference characters refer to like parts throughout the several views,

FlG. 1 is a general assembly View in side elevation of a card preparing apparatus associated with the film handling and mounting apparatus and embodying the principles of the present invention, the supporting base of the apparatus being only partly shown and having a portion thereof broken away for purposes of clearer illustration;

FIG. 2 is a detail face View of a card in completed form with a film frame mounted therein, the film mounting sheet on the card having a portion broken away for purposes of clearer illustration;

FIG. 3 is an enlarged detail elevation, partly in section, of the film feeding, registering, cutting, transferring and mounting unit as seen approximately from the position indicated by the line 3 3 of FIG. l;

FiG. 4 is an elevational view, partly in section; similar to FIG. 3, but with the film feeding mechanism and driving means therefor omitted and other parts broken away for purposes of clearer illustration;

FIG. 5 is a fragmentary Vertical sectional view taken approximately on the irregular line 5-5 of FIG. 4; with parts omitted and portions of certain parts broken away for purposes of clearer illustration;

FIG. 6 is a horizontal sectional view taken approximately on the line 6 6 of FIG. 3, with parts omitted and portions of certain parts broken away for purposes of clearer illustration;

FIG. 7 is a vertical sectional view of said film feeding, registering, cutting, transferring and mounting unit taken approximately on the line 7-7 of FIG. 6;

FIG. 8 is an enlarged vertical sectional view of the vacuum valve shown in FIGS. 4 and 5, said view being taken on the line 8-8 of FIG. 5, and one of the parts having a portion thereof broken away for purposes of clearer illustration;

FiG. 9 is an enlarged vertical sectional view of the film transferring and mounting shuttle shown in FIGS. 4 and 7, inclusive, said View being taken 0n the line 9--9 of FIG. 7;

FIG. l0 is an enlarged fragmentary vertical sectional view on the line 10-10 of FIG. 6;

FIG. 11 is an enlarged fragmentary vertical sectional view taken on the line'11-11 of FIG. 6;

FIG. 12 is an enlarged fragmentary vertical sectional View taken on the line 12-12 of FIG. 6;

FIG. 13 is an enlarged fragmentary vertical sectional view taken on the line 1.3*13 of FIG. 6;

FIG. 14 is an enlarged detail elevational view of the nlm unwinding unit as seen from the near side of the machine as shown in FIG. 1;

FiG. 15 is a vertical sectional View taken approximately on the line 1.5 15 of FIG. 14;

FG. 16 is an enlarged fragmentary vertical sectional View of the film supply reel supporting and retaining device;

17-17 of FIG. l5;

FIG. 18 is a detail elevational View, partly in section,

of parts of the film unwinding unit, including the iilrn supply reel, showing the path of travel of the film from Patented July 27, 1965 said reel to the film feeding, registering, cutting, transferring and mounting unit;

FIG. 19 is a detail top plan view, on an enlarged scale, of the electrical timing device shown in FiG. 1;

FIG. 20 is a detail elevational view on a further enlarged scale, looking from the right of FIG. 19, showing the driving connection for said timing device, certain of the parts having portions thereof broken away for purposes of clearer illustration; and

FIG. 21 is a schematic diagrammatic representation of an electric wiring circuit for the operation and control of the machine.

The apparatus constructed in accordance with the present invention and chosen for the purpose of illustration is particularly adapted for mounting individual image bearing frames of micro-film in cards of the type commonly employed in connection with statistical, tabulating and record card sorting systems and machines. Mounting of film frames in cards of this character advantageously provides such cards with a picture record of the data recorded or to be recorded thereon, and facilitates classifying and sorting of the film frames, as well as filing and indexing thereof, as to subject matter. It is to be understood that the invention is not so limited and that the principles herein described are applicable to the mounting of a variety of different inserts in the cards for the described and other purposes.

There is shown in FIG. 2 a card 5 of the known statistical or tabulating machine type, which is capable of being handled in the machine of the illustrated embodiment. This card 5 is oblong in shape and is formed of single ply cardboard or heavy relatively stiff paper material, and as shown, has been pre-prepared for the mounting of a frame of micro-film or other insert of like size therein. The cards 5, as presented to the machine, are each in the form shown in FIG. 2 and contains a generally rectangular aperture 6 extending therethrough and of an appropriate size to receive a frame of micro-film or other insert of equivalent size therein. The aperture 6 is located centrally between the upper and lower longitudinal edges of the card 5, and inwardly a selected distance from one side edge of said card, and said aperture is made of such width or vertical dimension that it will accurately receive the uncut longitudinal edges of the film frame or other insert. Adhesively secured to one face of the card 5 and covering the entire aperture 6 is a very thin generally rectangular sheet 7 of transparent material which is coated on the inner surface thereof with a layer of pressure sensitive adhesive. To eliminate projecting edges and to avoid increasing the thickness of the card 5, the sheet 7 is preferably embedded in the face of the card so that the outer face of said sheet lies flush with the adjacent face of the card. The sheet 7 is utilized to retain the film frame or other insert in the aperture 6 in the card 5 and to firmly hold said film frame or insert when the same is inserted into said aperture and pressed against said sheet as hereinafter described.

In the embodiment of the invention herein disclosed, the machine, as shown in FIG. l, includes the following:

(1) A supporting base indicated generally at 12 which is adapted to support various mechanisms of the machine, including a suitable driving mechanism indicated generally at 13;

(2) A card feeder indicated generally at 14 for feeding the cards 5 one after another in timed relation from a supply stack of said cards;

(3) A card conveyor indicated generally at 1S for conveying the cards 5 one after another in spaced relation along a horizontal rectilinear path;

(4) A mechanism indicated generally at 18 for unwinding a supply roll of micro-film or other insert strip;

(5) A feeding mechanism indicated generally at 19 for feeding the lm or other insert strip to and in registry with strip severing means;

(6) lA cutting, transferring and applying mechanism indicated generally at 20 for severing the film or other insert strip into individual frames or sections, transferring each severed frame or section to card mounting position and applying it in the aperture 6 in the card 5 and against the adhesive sheet 7 on said card, the card as it appears at this final stage with mounted insert being shown in FIG. 2 and the mounted insert being a frame of micro-film and indicated at 11.

The supporting base 12 rests on the machine foundation and comprises a generally rectangular horizontal plate or platform 22, a pair of longitudinally extending bars 23 located at opposite sides of said plate, and two transversely extending standards 24 located at opposite ends of said plate, said plate and said bars being bolted or otherwise suitably secured to said standards, and said plate being also bolted or otherwise suitably secured to said bars.A The movable parts of the mechanisms for cutting, transferring and mounting the film sections, together with the card feeder 14 and conveyor 15, are all preferably driven by the driving mechanism 13 which includes an electric motor 25. The motor 25 is carried by the supporting base 12 beneath the platform 22, and is preferably mounted on said base in a suitable manner for pivotal up and down movement for a purpose to be presently described. The motor 25 which is of the single phase type is supplied with electrical current from a suitable source and is controlled for starting and stopping purposes by a suitable manually operated switch which will be later explained in connection with the description of the electrical control circuit illustrated in FIG. 2l, for the machine.

The card feeder 14 may be of any suitable design such as that described and illustrated in our said copending patent application.

FILM UNWINDING MECHANISM FIGS. 1, and 14 to J8, inclusive The machine is capable of handling a relatively large supply of insert material whereby frequent stopping of the machine for reloading purposes is advantageously avoided, and an increased hourly output of finished cards with inserts mounted therein is advantageously obtained. In this connection, it is pointed out that the supply of cards 5 in the feeder 14 may be and is replenished while the machine is in operation. In the illustrated embodiment, the insert material is in the form of individual frames of exposed image-bearing micro-film, as indicated at 11 in FIG. 2c. It is to be understood that the machine of the present invention is capable of and may be used for mounting inserts of other types and other materials in such and other cards for various purposes, as desired.

The individual micro-film inserts 11 are cut from a supply strip 575 bearing image areas 576 spaced therealong and separated by line-spaces or areas 57'7 which, as well known in the photographic art, may either be opaque areas or clear transparent areas. The film supply strip 575, as presented to the machine, is wound upon a core 579 forming a roll 578 thereof, and for the purpose of relieving the film strip feeding means of the strain of unwinding the film strip directly from the large and heavy roll thereof, separate power actuated mechanism is provided for unwinding the lm strip from the supply roll as required during the normal operation of the machine, and for forming and maintaining at all times in the machine a free loop of said strip. In this manner, the film strip is drawn from the free loop thereof which presents substantially no frictional drag or load on the feeding means, with the result that accurate uniform feeding of given lengths of the film strip by the feeding means is always obtained, and accurate cutting from said strip of individual image-bearing sections of a given length is always assured.

As herein shown, the various stationary and movable parts of the film unwinding mechanism 18, including the film supply roll 573, are mounted on an Lshaped frame 580 which is bolted or otherwise suitably secured to the base plate or platform 22. The lm unwinding mechanism 18 is quickly and easily located in its proper position longitudinally and laterally of the machine by a key, keyway and stop block arrangement the same as employed in connection with the previously described mechanisms 16 and 17, the stop block and stop bolt therein only being shown and appearing in FIG. 14 and indicated at 581 and 582, respectively. For purposes which will presently be seen, the frame 580 is located forwardly of the conveyor 15 and near the front end of the platform 22, and such that the upwardly projecting portion thereof is located at the side guide side of said conveyor and is spaced a short distance outwardly from the line of travel of the cards. The vertical portion of the frame 560 extends well above the line of travel of the cards so as to accommodate the large diameter film supply roll 578. The frame 580 has secured to the outer surface of the vertical portion thereof a plate 533 which provides a smooth inner Wall for the film supply roll 578.

The lm supply roll 578 is mounted in a novel manner on the frame 580 for free and easy rotation relative to said frame. For this purpose, the film supply roll 578 is engaged over a short sleeve 54 which is slidably received in a corresponding opening in the core 579. The sleeve 584 has suitably secured to the outer end thereof a knob 585 for manually rotating the film supply roll 57S, the sleeve 584, knob 585 and plate 586 is slipped over and rotatably supported by a spindle 587 which is secured to the frame 580 adjacent the upper end thereof by a nut 588, said unit being removably retained on said spindle by two spring-pressed detents 539 which are carried by the spindle and project radially therefrom into an annular groove 590 formed in the inner wall of the sleeve 584. Engaged over and surrounding the spindle 587 are two anti-friction needle bearings 591 which provide for substantially frictionless rotation of the film supply roll 578. The spindle 537 is counterbored to receive therein snap rings 592 for retaining the detents`589 in said spindle when the sleeve 584 is disengaged therefrom and removed from the spindle to reload the machine with a new supply roll of film.

The film supply Istrip 575 is led downwardly from the rear side of the supply roll 578 between a rubbertired feed roller 593 and a cooperating rubber-tired pressure roller 594. From the rollers 593 and 594 the film supply strip 5-75 is led in slack condition to a horizontal guide 595 so as to form between said guide and said rollers a free loop 596 of said strip. The guide 595 forms part of the film strip feeding and registering mechanism 19 to be hereinafter described. The feed roller 593 is xed on one end of a stub shaft 597 which projects through a suitable clearance opening in the plate 583 and is journalled at the other end thereof in a suitable bearing in the vertical portion lof the frame 580. The feed roller 593 is intermittently rotated during the normal operation of the machine to unwind the film strip 575 from the supply roll 578 as required and thereby maintain at all times in said machine a free loop of said film strip. For this purpose, there is provided a separate electric motor 5% which is of the conventional gear reducing type, needing no detailed description herein. The motor 598 is bolted or otherwise suitably secured to the inner surface of the vertical portion of the frame 580, and the output 599 of said motor has fixed thereon a spur gear 600 which meshes with a somewhat larger spur gear 661 that is fixed on the feed roller shaft 597. The feed roller 593 will thus be rotated by the motor 593 at a desired and proper speed to gently and smoothly unwind the film strip 575 from the supply roll 578 in cooperation with the pressure roller 594, The pressure roller 594 is journaled on a pin 692 which is secured at the outer end thereof to a fianged arm 693 which is disposed outwardly of said roller. The arm 603 is pivotally mounted on the vertical portion of the frame 580 by a stub shaft 664 which is secured in an elongated hub on said arm :and projects through a suitable clearance opening in the plate 583 and is journalled in a suitable bearing in said frame portion. The arm 663 and consequently the pressure roller 594 carried thereby is yieldingly urged toward the feed roller 593 by a coil extension spring 605 to maintain said pressure roller engaged with the film supply strip 575 and to yieldingly press the latter against said feed roller. The spring 695 is located at the inner side of the vertical portion of the frame 58h and has one end thereof connected at 606 to said frame portion and the other end connected to the free end of an arm 607 which is secured to the projecting inner end of the stub shaft 6%4.

During the normal operation of the machine, the' electric motor 598 is controlled such that it is started to effect rotation of the feed roller 5% and unwinding of a length of the hlm strip 575 thereby from the supply roll 578V when the free loop 596 of said strip has become reduced to a predetermined size and before it has completely disappeared, and is stopped to discontinue such unwinding of the film strip when the free loop is again increased to a predetermined normal size. When the free loop 596 is reduced to the desired minimum size thereof it extends below the rollers 593 and 594 to the upper broken line position shown in FEiG. 14, and when said loop is increased to the desired maximum size thereof it extends farther below said rollers to the position shown in FIG. 18 which corresponds to the lower broken line position thereof shown in FG. 14. ln this manner, the free loop 596 will never become too small or too large, and there will always be maintained in the machine a free loop of the film strip to insure accurate performance of feeding, registering and cutting operations on said strip.

This starting and stopping of the electric motor 593 is effected under the control of the free loop 5% of the film strip 575 and is accomplished through the prevision of a relatively long lever 603 which is located at the inner side of the vertical portion of the frame 58? and is loosely mounted at one end thereof on said frame portion for free pivotal movement in a vertical plane by a stud 669 which is suitably fixed in said frame portion. The lever 69S has secured in the other end thereof a horizontal pin 616 which projects laterally from said lever beyond the plate 583 through aligned arcuate slots formed in said plate and the vertical portion of the frame 586 concentric with the pivotal axis 669 of said lever, only the slot in said frame portion being seen and indicated at 6M. The pin 6ft) has journalled thereon a iianged roller 612 which is disposed Within the free loop 596 of the film strip 575 and continuously rests by gravity thereon under the weight of said roller and the lever 668. The peripheral surface of the roller 612 is preferably smooth and highly polished so as not to scratch or otherwise injure the images on the film strip 575. It will be apparent that as the size of the free loop 596 of the film strip 575 is reduced through feeding of said strip from said loop, as hereinafter described, the lever 668, through engagement of the roller 612 with the free loop, will be raised or rocked in a clockwise direction, as viewed in FIG. 14, by the diminishing free loop, and when the size of the free loop is increased through unwinding of the film strip from the supply roll 578, the lever 663 will follow by gravity with the free loop as it increases and, hence, said lever will be lowered or rocked in a counterclockwise direction.

Engaged over the stud 609 and suitably secured to the lever 658 for rotation thereby in opposite directions as said lever is raised and lowered, respectively, as above described, is a cam 613 which is engaged at opposite sides thereof by cam followers or rollers 614 and 615 which are journalled on and at the upper ends of vertical arms 616 and 617, respectively. These arms 616 and 617 are pivotally mounted intermediate the ends thereof at 618 and twisted lower end portions of the arms 616 and l? are machine screws 620 and 62d, respectively, which are arranged to respectively engage the Contact closing plunger 622 and the contact opening plunger 623 of a conventional micro-switch 624 which is suitably secured to the vertical the portion or" the frame 5343. The micro-switch 624 is of resetting type which requires actuation of the plu 623 to open the contacts thereof when once closed by the plunger 622, and requires actuation of the plunger to close said contacts when once opened by the plunger 623, said plungers, however, being capable of returning to their original projected positions when released' and permitted to do so by their respective screws 62@ and The cam rollers 6M and 61S are yieldingly held in ment with the ycam 6l3, and the lower end portions of the arms 616 and 67 are yieldingly urged away from the switch 624i, by a coil extension spring 625 having one end thereof connected at 62.6 to the arm :Slo and ne oth connected at 62?' to the arm 6517. With the cam ro l 614 and 6E engaged in the low part ot the cam 6?.'3, as shown in FIG. 14, and with the switch open at this time and the motor accordingly stopped, the screws 626" and are adiusted so that they just conta-" their espective projected plungers 622 and 623, said screws being then locked in adjusted positions by locA nuts 623 and 62.9, respectively. rEhe motor 593 and the micro-tinten 624 are electrically connected together by a conductor 639, and said motor and said switch are connected by conductors 631 and 632, respectively, in the electrical control circuit for the machine, as illustrated in FIG. 2l and to be hereinafter described.

The length of the high part of the cam 623 and the position of said cam on the lever are so chosen that when said lever occupies a position substar lly cel ally between the upper and lower limits of pivotal movement thereof, as shown in full lines in lil-V i4, the caml rollers 614- and 615 are both engaged in the low part of said cam and positioned alike distances away from the ends of the high part of said cam. At this time, the length` of the l'ree loop 596 of the lm strip 575 is substantially one-half its maximum size, the plungers of the switch 624 are released by the arms a respectively, said switch is open and no electrical current is being conducted to the motor lt will thus be apparent that when the free loop 59:5 of the film strip 575 is reduced to its minimum size and consequently the lever 638 is raised by said loop to Ythe upper broken line position thereof shown in FlG. ld, thereby rotating the cam 6H in a clockwise direction, the cam roller 6M will be engaged by the high part of sad cam, while the cam roller 6i5 will continue to the low part of the cam. arm 631'6 only is rocked in about its pivot 6S- by the cam` 6X5, thus actuating plunger 622 of the switch 624 and closing the contacts of said switch. Closing of the contacts of switch 63d starts the motor 59S, whereupon the rollers and are rotated and the nlm strip 5?:3 is drawn thereby from the supply roll 57S and added to the diminished free loop 5%. As the film strip 575 is drawn from the supply roll 578 and the length or size of the free loop 596 thus creases, the lever 668 drops by gravity with the increasing f lil returns ,to its original projected position. The contacts of the switch 624, however, remain closed and, hence, the motor 593 continues to operate, and unwinding of the film strip 575 from the supply roll 573 continues until the lever 66S reaches its lower broken line position shown in FIG. 14 and the free loop 556 is accordingly extended to said position. rihereupon, the cam roller 615, through continued rotation of the cam 6l3 in a counterclockwise direction by the downwardly moving lever 608, is engaged by the high part of said cam and the arm 617 is rocked in a clockwise direction about its pivot 619, thus actuating the plunger 623 of the switch 624 and opening the contacts of said switch. With the free loop 596 of the lm strip 575 thus restored to its maximum size, opening of the contacts of the switch 624 stops the motor 538-, thereby interrupting the unwinding of the ilm strip 575 from the supply roll 57S. As the hlm strip 575 is fed from the restored free loop 596 thereof, the lever 693 is raised from its lower broken line position shown in FIG. 14, and when said lever, during such upward movement thereof, substantially reaches its midway position, the high part of the cam el?, will leave the cam roller alii. Thereupon, the arm 6l? is rocked about its pivot @Si in a counterclockwise direction by the action of the spring 625, and the plunger 623 of the switch 62d is released by said arm and returns to its original projected position, thus resetting said switch for subsequent operation in the manner above described.

FlLM STRlP FEEDING AND REGSTERING MECHANISll/i FIGS. l, 3, 4', 5, 6, 10 o 15, inclusive, 17, and 18 Theiilm strip 575 is led from the free loop 596 thereof over a rubber-tired roller 633, to be hereinafter referred to, and threaded through the horizontal guide 595 which forms part of the mechanism i9 for intermittently feeding said strip from said loop and registering the same with knife means, to be hereinafter described, whereby individual frames severed from the strip by said knife means each will contain a full image properly centered thereon. It mivht be repeated at this time, that the aperture 6 in the card S is made of such width or vertical dimension that it accurately receives the uncut longitudinal edges of the film frame or insert severed from the tilm strip. In this manner, the full width of the 'llm strip is economically utilized, and at the most two transverse cuts extending completely across the strip are only required to produce an insert of a length to accurately tit within the aperture 6 in the card 5. It will thus be seen that in the case of the image bearing film strip in the illustrated embodiment, or any other record or indicia bearing strip, a very high degree of accuracy is required in the feeding of the strip to the cutting means. As herein shown, the film strip feeding and registering mechanism 19 comprises the following elements, including the guide 595, which are constructed, mounted, operated and controlled as follows.

The guide 5&5 is located in line with the film strip supply roll 578 to receive the lilm strip 575 in a straight line from the free loop 596 thereof and, hence, said guide is also located at the side guide side of the machine and is laterally spaced a selected distance from the line of travel of the cards. The guide S95 consists of two complementary elongated members 634 and 635 which, when placed together, denne a shallow horizontal guide passage 636 of rectangular transverse section. The lm strip 575 enters the passage 636 at the right-hand end of the guide L95, as viewed in FlGS. l0 and 18, and is advanced stepby-step along said guide passage to the zone of action of cutting means to be hereinafter described. The guide 595 is mounted on top and at the inner side of a frame 637 and on top and at the confronting outer side of a bracket 638 disposed in spaced parallel relation to said frame. The guide 5% bridges the space between the frame 63'/ and the bracket 638 and is suitably secured to said frame and said bracket. The bracket 633 is bolted or other- 'wise suitably secured to the frame 637, and said frame is bolted or otherwise suitably secured to an auxiliary base block or pedestal 639. This block or pedestal 639 is bolted or otherwise suitably secured to the base portion of a frame 6d@ which forms part of the lm strip cutting, film frame transferring and mounting mechanism 2t? to be later described. Location of the frame 637 and the pedestal 639 in proper positions on said pedestal and the frame 648, respectively, is facilitated by keys 641 and 642 secur-ed to the upper and lower surfaces, respectively, of the pedestal and engaged in keyways 643 and 644, respectively, formed in the frames 637 and 648, respectively.

The various operable part-s of the film strip feeding and registering mechanism 19 are driven from a speed reduction drive unit 645 which includes an electric motor 646 coupled thereto and forming a part thereof. This combined unit 645, 646 is slidably mounted on and bolted or otherwise suitably secured to a plate 647 which, in turn, is bolted or otherwise suitably secured to the base portion of the frame 586 of the previously described film unwinding mechanism 18. The electric motor 646 is connected in the electrical control circuit for the machine and is controlled for starting and stopping purposes by a manually operated switch which will be later explained in connection with the description of said circuit. Fixed on the output shaft of the speed reduction drive unit 645 is a sprocket 6559 around which passes a chain 65d which also passes around a smaller diameter sprocket 651. This sprocket 651 is fixed on the inwardly projecting end of a horizontal transverse shaft 652 which is journalled adjacent said end in a suitable bearing block 653 carried by a bracket 654 which is located directly below the line of travel of the cards and is bolted or otherwise suitably secured to the frame 648. Slack in the chain 658 is compensated for by sliding the driving unit 645, 646 on and relative to the supporting plate 647. The shaft 652 projects through and beyond the bearing block 653 and the bracket 654 and has xed on the extreme outer end thereof a sprocket 655 around which passes a chain 656. The

chain 656 extends upwardly from the sprocket 655 and A 663 which is journalled on and at the free end of an arm 66d which is carried by and is adjustably secured to the plate 659.

The sprocket 657 is disposed exteriorly of the plate 659, and the stub shaft 658 driven by said sprocket has fixed thereon between the plates 659 and 668 a spur pinion 665 which meshes with a larger diameter spur gear 666 which is fixed on a stub shaft 667. This stub shaft 667 is journalled in suitable bearings in the plates 659 and 668 and projects beyond the adjacent inner wall of the frame 637 through a suitable clearance opening in said wall. The stub shaft 668 has fLxed on the outwardly projecting end thereof a spur pinion 668 which measures with the larger diameter spur gear 669 of a compound idler gear which includes a smaller diameter spur gear 678 secured to or formed integrally with the gear 669. The compound idler gear 669, 678 is journalled on a stud 671 which is suitably secured in the frame 637. The smaller gear 670 of the compound idler meshes with and drives a larger diameter spur gear 672. ri`his gear 672 is fixed on the outwardly projecting end of a stub shaft 673 which extends transversely of the guide 555 beneath the latter and is journalled in suitable bearings in the frame 637 and bracket 638. The stub shaft 673 has keyed thereon a rubbertired feed roller 674 which is located between the frame 673 and the bracket 638 and projects through the lower `l@ Y member 635 of the guide 595 through an enlarged opening 675 in said guide member so as to engage, and to be engaged by, the film strip 575 disposed within and extending along the guide passage 636.

The larger gear 669 of the compound idler meshes with and drives a smaller diameter spur gear or pinion 676 which is secured to the driven member 677 of a friction slip clutch 678 which is engaged over a shaft 679 extending transversely of the guide 595 beneath the latter. The shaft 679 is disposed in parallel relation to the feed roller shaft 673 and is spaced a selected distance rearwardly from said feed roller shaft. The shaft 679 has its inner end portion journalled in suitable bearings in the bracket 638 and the frame 637, and is also journalled adjacent the outer end thereof in a suitable bearing in another bracket 688 which is bolted or otherwise suitably secured to said frame. The slip clutch 678 is of conventional design embodying the clutch member 677 which is loosely mounted on the shaft 679, and a series of friction discs (not shown) which are disposed within said clutch member and cooperate with the latter and with each other to drive said shaft, certain of said discs being connected to the clutch member 677 and others being connected to the shaft 679. The shaft 679 has keyed on the inner end portion thereof a rubber-tired feed roller 681 which is located between the frame 637 and the bracket 638 and projects through the lowerrmember 635 of the guide 595 through an enlarged opening 682 in .said guide member so as to engage, and to be engaged by, the film strip 575 disposed within and extending along the guide passage 636.

The shaft 679 projects beyond the bracket 68d and has fixed on the outer end thereof a cam disc 683 formed with two alike cam surfaces 684 which terminate in two alike radially extending shoulders or abutments 685 disposed diametrically opposite each other and facing in the direction of rotation of said shaft. The bracket 68) has pivotally mounted thereon at 686 one end of a stop lever 687 having journalled thereon at the other end thereof a roller 688 which is adapted to normally engage one or the other of the two shoulders 685 on the cam disc 683 and thus normally hold the shaft 679 and consequently the feed roller 681 against rotation in opposition to the driving torque of the clutch 678, said clutch slipping at this time and thus having no affect on the operation of the speed reduction drive unit 645. The stop lever 687 is continuously biased toward the cani disc `683 by a coil exa tension spring 689 having one end thereof connected at 698 to said lever and the opposite end engaged over a pin 691 suitably secured in the bracket 680. It`wil1 be apparent that when the stop lever 687 is rocked out of engagement with the cam disc 683, as hereinafter described, thereby releasing said disc, rotation will immediately be imparted to the shaft 679 and the feed roller 681 by the speed reduction drive unit 645 through the described gearing, including the clutch 678. When the stop lever 687 is rocked toward the cam disc 683 by the action of the spring 689 substantially immediately following the release of said disc by said lever, the roller 688 will engage and ride along the succeeding cam surface 684 on the disc so that the succeeding shoulder 685 on said disc will engage said roller, thus stopping the disc after it has made exactly one-half of a revolution and limiting the rotation of the feed roller 681 to exactly one-half of a revolution.

During the normal operation of the machine, the electric motor 646 is operated continuously, and it will thus be apparent that the feed roller 674 is rotated continuously and that by virtue of the speed reduction drive unit 645 and the described gearing for said feed roller such rotation of the latter occurs at a very slow surface speed. Accordingly, the film strip 575 engaged by the feed roller 674 will be advanced by said roller at a very slow surface speed along the guide 595. It will also be apparent that the feed roller 681, through thedescribed gearing therefore, including the clutch 678, with the continuously drivenspeed reduction drive unit 645, will be rotated by said unit when released by the stop lever 687, and that by virtue of said gearing such rotation of said roller will occur at a surface speed faster than the surface speed of the continuously driven feed roller 674. Accordingly, the film strip 575 engaged by the feed roller 681 will be advanced by said roller at a faster surface speed along the guide 595 independently of the feed roller 674.

Cooperating with the feed rollers 674 and 631 to increase the tractive effort of said rollers on the film strip 575 and to insure movement of said strip along the guide 595 at slow speed by the feed roller 674 and at a faster speed by the feed roller 681, as above described, are upper rubber-tired pressure rollers 692 and 693, respectively. These pressure rollers 692 and `693 are journalled on and at opposite ends of a rocker arm 694 which is pivotally mounted centrally of said ends on a stub shaft 695 that is secured in the frame 637 and the bracket 638. It will be apparent that by virtue of the described mounting for the pressure rollers 692 and 693, when the pressure roller 692 is moved toward the feed roller 674 and the film strip 575 is pressed thereby against said feed roller to effect advancing movement of said film strip, the pressure roller 693 is simultaneously moved away from the feed roller 681 which at this time is stationary, thus enabling movement of the film strip 575 at slow speed along the guide 595 by the feed roller 674. When the pressure roller 693 is moved toward the feed roller 681 and the film strip 575 is pressed thereby against said feed roller to effect advancing movement of said film strip, the pressure roller 692 is simultaneously moved away from the feed roller 674 and out of engagement with the film strip 575, thus enabling free advancing movement of said film strip at a faster speed along the guide 595 by the feed roller 681. Y Rocking movement of the rocker arm 694 in a clockwise direction, as viewed in FIG. 10, to bring the pressure roller 692 into pressing engagement with the lrn strip 575 within the guide 595 is timed to occur once during each cycle of operation of the machine, and is effected Y electrically by energization of a solenoid 696. The operation of this solenoid 6% is under the control of an electric timing switch 697 which forms part of a multipie circuit timer utilized in the machine and indicated generally at @Q3 in FIGS. 1 and 19. The timer 6% is of conventional design,l embodying the switch 697, and other similar switches 699, 760 and 7171 to be hereinafter referred to, and two driven rotary cams for each of said switches to open and close the contacts thereof at predetermined intervals, the contact closing cams being indicated at 702, 703, 704 and 765, respectively, and the contact opening cams being indicated at 766, '797, 768 and 769, respectively. The cams 762 to 799, inclusive, are fixed in pairs on a shaft 710 which is journalled in suitable bearings in a casing 711. During the normal operation of the machine, the shaft 716 is rotated continuously and such that it makes one complete revolution for each cycle of operation of the machine. For this purpose, the timer 698 is mounted on and suitably secured to the base plate or platform 22 in front of the cover sheet stripping mechanism 16, and the shaft 711) of said timer has mounted thereon a sprocket 712 around which passes a chain 713 which also passes around and is driven by a similar sprocket 714 that is fixed on the main cam shaft 50 of the machine, said sprockets being of the same size.

T o prevent possible damage to thetimer 6% upon manual rotation of the cam shaft G in a reverse direction for any reason, the sprocket 712 is loosely mounted on the timer shaft 719 and is connected to said shaft by a slip coupling (FIG. comprising a collar 715 which is fixed on the shaft adjacent said sprocket and is formed in the peripheral surface thereof with a spiral groove 716, and a Spring-pressed plunger 717 which is slidably mounted in the sprocket 712 and is arranged to yieldingly project into the groove 716 and engage the leading wall of said groove, said wall being flattened at the inner end thereof parallel to the axis of rotation of the collar 715 so as to provide more surface contact of said plunger with said collar. During the normal operation of the machine, the timer shaft 710 will thus be driven in the proper direction by the sprocket 712 through engagement of the plunger 717 with the fiat portion of the leading wall of the spiral groove 716 in the collar 715, and when the machine is stopped and the cam shaft 56 is manually rotated in the reverse direction for some reason, the plunger 717, through reverse rotation of the sprocket 712, will engage the inclined trailing wall of the spiral groove 716 in the collar 715 and, hence, said plunger will be cammed out of driving engagement with said collar and no reverse rotation wiil be imparted to the timer shaft 711i. The outer end of the trailing wall of the spiral groove '716 in the collar 71S is also flattened so that the ends of said groove are interchangeable for the described purpose, thereby simplifying the mounting of the collar on the shaft 71() and providing for prolonged use of said collar in the machine. The timer 6&8 includes a terminal block 718 which is suitably secured to the casing 711 and to which the conductors (not shown) leading from the contacts of the various switches 697, 699, 760 and 791 are connected at 719 and 726, 721 and 722, 723 and 724, and 725 and 726, respectively. The terminals 719 and 720 appertaining to the switch 697 have connected thereto conductors 727 and 723 which are connected in the electrical control circuit for the machine as more fully explained hereinafter in the description of said circuit.

Referring back to the solenoid 696 for operating the rocker arm 695i, said solenoid is bolted or otherwise suitably secured to the frame 637 and has conductors 729 and 731i leading therefrom which are connected in the electrical control circuit for the machine,.as illustrated in FIG. 21. iivotaliy connected at 731 with the movable core 732 of the solenoid 696 is the lower end of a vertical link 733 the upper end of which extends between two spaced parallel plates 734 of triangular shape and is pivotally connected at 735 to said plates. The plates 734i are pivotally mounted at 735 on a bracket 737 which is bolted or otherwise suitably secured to the frame 637. Disposed between the plates 734 and pivotally connected to said plates at '73% intermediate the pivotal points 735 and 73e is the lower end of a short vertical link 7219 the upper end of which is received within and is pivotally connected at 74() to the U-shaped portion 741 of a resilient arm 742 formed of spring steel. This arm 742, together with a shorter, more rigid metallic strip 743 disposed above the same, is secured at the other end thereof to a block 744 which is suitably secured to the projecting end of the stub shaft 655 to which the rocker arm 694 is secured. The plates 73e have pivotally connected thereto at 745 the upper end of a rod 746 which projects downwardly from said plates and has its lower end disposed within and projecting through a suitable clearance opening formed in the bracket 737. Surrounding the rod 745 is a coil compression spring 747 having one end thereof engaging against the bracket 737 and the opposite end engaging against a collar 748 which is adjustably secured to said rod.

it will thus be apparent that when the solenoid 696 is energized through closing of the timer switch 697 by the timer cam 702, the core 732 will be electrically drawn downwardly and, hence, the rocker arm 694, through the described operating connections therefor with said core, will be rocked about the pivotal axis 695 in a clockwise direction, as viewed in FG. l0, until the pressure roller 6&2 on said arm contacts the film strip 575, whereupon the resilient arm 742 will yield under the continued downward pull of the core 732 and said film strip will be yieldingly pressed by said pressure roller against the feed roller 674;. When the solenoid 6% is thereafter deenergized, as explained hereinafter in connection with the description of the electrical control circuit for the machine, the plates 73d will be rocked about the pivotal axis 736 thereof in a clockwise direction, as viewed in FIG. 13 by the expanding action of the spring 747, whereupon the core 732 will be raised, and the rocker arm 94 will be rocked in a counterclockwise direction, as viewed in FlG. 10, until the pressure roller 693 on said arm contacts the film strip 575 and yieldingly presses the same against the feed roller 68l, at which time the pressure roller 672 is raised clear of said film strip.

lt is apparent that while the pressure rollers 692 and 693 are being lowered and raised, as above described, into and out of engagement with the tilm strip 575 in the guide 595, there is a brief moment when said lm strip is not engaged by or under the control of either roller and, hence, the film strip at this moment is entirely free in said guide and would be retracted from its proper normal longitudinal position in the guide under the influence of the lever 668 on the free loop 596 of said strip. Brake means is, therefore, provided for continuously holding the film strip 575 against any retracting movement relative to the guide 595, while at all times permitting feeding movement of said strip by the feed rollers 674 and 681 As herein shown, said brake means comprises the rubbertired idler roller 633, previously referred to, and a springpressed rubber-tired pressure roller 749 cooperating with said idler roller to pinch the lm strip 575 therebetween. The idler roller 633 is slidably engaged over a fixed stub shaft 75d which extends through a suitable clearance opening in the plate 583 and is suitably secured in the vertical portion of the frame 556. The idler 633 is connected to the stub shaft 756 by a coupling in the form of an over-running clutch (FIG. i7) which is disposed within said roller and utilizes the inner shell 75l of the roller as a component part thereof. The clutch includes a series of spring-biased rollers 752 which are disposed in notches 753 formed in the periphery of a member 754- which is splined or otherwise suitably secured to the stub shaft 756. By virtue of the over-running clutch type of coupling, the idler roller 633 is free for rotation at all times, in a counterclockwise direction, as viewed in FIG. 17, relative to the member 754, by the film strip 575 as the latter is advanced along the guide 595 from the free loop 556 thereof by the feed rollers 674 and 681. This is due to the fact that rotation of the idler roller 633 in the film strip feeding direction causes the rollers 752 to move into the deep ends of the notches 753 and rotate freely therein without transmitting any binding action between the surfaces of the shell 75l and member 754. However, it will be apparent that if the idler roller 633 is rotated in a clockwise direction, as viewed in FIG. 17, the rollers 752 are immediately urged toward the shallow ends of the notches 753, thereby locking said idler roller against the member 754 and preventing rotation of said idler roller in said direction. Since the lilm strip 575 is normally pinched by and between the idler roller 633 and the pressure roller 749, retracting movement of said film strip relative to the guide 595 is thus normally prevented.

The pressure roller 749 is journalled on and at one end of an arm 755 which is pivotally mounted at the other end thereof on a stub shaft 756 which extends transversely of the guide 595 and is adjustably secured at the inner end thereof in a bracket 757 by a nut 753, said shaft being formed adjacent said shaft being formed adjacent said bracket with an enlarged annular portion 759. The bracket 757 is bolted or otherwise suitably secured to the upper member 634 of the guide 595. A torsion spring 76) encircles the shaft 756 and has its inner end engaged in a suitable opening in the portion 759 of said shaft and its outer end engaged in a suitable opening in the arm 755. A collar 761 is mounted on the outer end of the shaft 756 and is engaged by the arm 755, said arm and said collar being retained on said shaft against axial outward displacement therefrom by a snap ring 762 which is engaged in a suitable annular groove in said shaft. The

collar 762 is normally free on the shaft 756 and is formed on the inner surface thereof with a radial lug 763 which projects into a corresponding radial recess formed in the adjacent surface of the arm 755, whereby said arm and the pressure roller 749 thereon may be raised away from the idler roller 633 and held in elevated position by tightening a set screw 766 provided in the collar, so as to facilitate threading of the lrn strip 575 over said idler roller and into the guide 595. By loosening the nut 758 and rotating the shaft 756 the tension of the spring 76@ may be increased or decreased as desired, following which said nut is again tightened.

The previously described slow speed advancing movement of the film strip 575 along the guide 595 effected by the continuously driven feed roller 674 and cooperating pressure roller 692, is advantageously and effectively utilized to provide for accurate and reliable scanning of said lrn strip and detection of each line-space or area 577 separating adjacent image-bearing areas 576 of the strip by a photo-electric cell unit indicated generally at 765, whereby the operation of the feed roller 674 and the feed roller 681 and, hence, the feeding of the lm strip 575 thereby to strip severing means to be hereinafter dcscribed, it effectively controlled to insure accurate registry of the images on said film strip with said severing means such that the film strip will be severed on the linespaces substantially centrally thereof into individual frames each containing a full image located substantially centrally thereon.

The photo-electric cell unit 765 is suitably mounted to scan the slow moving lm strip 575 at a selected point which, in the illustrated embodiment, is located between the feed roller 681 and the strip severing means and is spaced from said severing means a distance less than the length of one image-bearing film frame as measured between the centers of adjacent line-spaces 577 defining said frame. This location of the photo-electric cell unit 765 in relation to the strip severing means provides for feeding of the film strip 575 first at slow speed through part only of the distance by the feed roller 674 to bring the trailing line-space 577 into scanning position, and then at a faster speed the remainder of the distance by the feed roller 681 to quickly bring said line-space into registry with said strip severing means.

As herein shown, the photo-electric cell unit 765 is preferably, but not necessarily, located below the guide 595 and comprises a photo-electric cell 766 enclosed in a suitable casing 767 which is suitablyA secured to the lower horizontal portion of a vertically extending bracket 76S. A source of light in the form of an electric lamp 769 for the photo-electric cell 766 is provided and located above the guide 595 in vertical alignment with said cell. The lamp 769 is enclosed in a suitable casing 770 which is suitably secured to the upper horizontal portion of the bracket 768. j The casing 767 is provided at the top thereof with a suitable lens system 771, and the casing 776 is provided at the bottom thereof with a suitable lens system 772., said lens systems serving to concentrate the light beam from the lamp 769 upon the photo-electric cell 766, as indicated by the broken lines in FIG. 4. The bracket 768 is mounted by a bolt 773 on the frame 640 for pivotal movement longitudinally of the guide 595 to locate the photo-electric cell 766 and the light source 769 in proper position with respect of said guide. The bracket 768 is maintained in adjusted position by tightening the bolt 773, and by a second bolt 774 which extends through a clearance slot 775 in an angle bracket 776 and is threaded into the bracket 763, said angle bracket being bolted or otherwise suitably secured to the frame 640.

The upper and lower members 634 and 635, respectively, of the guide 595 are provided with registering openings 777 and 778, respectively, for transmission of the light beam therethrough and for scanning of the film strip 575 by the photo-electric cell 766. The light rays from the lamp 769 are passed through a narrow transverse slot 779 formed in a mask 73d which is mounted ori the upper member 634 of the guide 595. The mask 786 is adjustable longitudinally of the guide 595' to proper position by means of a threaded pin 781 which is secured at opposite ends thereof in spaced posts 782 and has threaded thereon a knurled adjusting nut 7&3 which is confined between two upstanding ears 784 formed on said mask, said posts being suitably secured to the upper guide member 634. Rotation of the nut 783 will thus impart longitudinal movement to the mask 781i relative to the guide 59S. The mask 73d is maintained in its adjusted position by a machine screw 785 which extends through a suitable slot in said mask and is threaded in the upper guide member 634.

As will be hereinafter explained in connection with the description of the electrical control circuit for the machine, the photo-electric cell 766 is-connected in said circuit such that when a line-space 577 on the slow moving film strip S75 registers with the slot 779 in the mask 789, :thereby affecting the light directed through said slot into said cell, trie photoelectric cell, in response to such change in light, simultaneously causes the breaking of the electric circuit in which the solenoid 696 is connected and the closing of another electric circuit in which is connected a solenoid 756 which controls the operation of the faster speed feed roller 653i. Under these conditions, the slow movement of the film strip 575 is interrupted through deenergizing of the solenoid 6% and lifting of the pressure roller 692 from said strip as hereinbefore described, and simultaneously therewith and with engagement of the pressure roller 693 with the film strip the rotation of the faster speed feed roller 631 is initiated. Thereupon, the feed roller 632i makes one-half of a revolution, thus continuing the advance of the film strip 575 but at a faster speed, and presenting said strip to the strip severing means with the leading image 576 thereon in proper registry with said severing means.

The solenoid is operatively associated with the stop lever 637 to rock the same away from the cam disc 683 when energized, as previously described, and thereby release said disc and provide for rotation of the faster speed feed roller ddl. For this purpose, the solenoid 7S is bolted or otherwise suitably secured to the frame 637 and has conductors 7 87 and 7&8 leading therefrom which are connected in the electrical control circuit for the rnachine, as illustrated in FG. 2l. The movable core 789 of the solenoid 786 has pivotally connected thereto at 79d the lower end of a vertically disposed latch member 791i which is formed with a downwardly facing shoulder 792 which normally projects over a laterally offset portion 793 of the stop lever 637. The latch member 7931 is biased toward and into engagement with the portion 793 of the stop lever 687 by a short coil extension spring 7% having one end thereof engaged over the pin @l and the opposite end connected at 79d to said latch member. The core 789 of the solenoid 78d and thelatch member 791 are biased upwardly to their normal positions by a coil eX- tension spring 7% having one end thereof connected at 79S and the opposite end connected at 797 to the bracket 680. A stop pin 793 is suitably secured in the bracket 650 and is arranged to be engaged by an upwardly facing shoulder 799 on the latch member 7% so as to limit the upward movement of said latch member by the spring 796 such that shoulder 7??. in the normal position of the latch member is spaced upwardly from the portion 793 of the stop lever 687 by a minimum clearance. The latch member 791 is also formed with a downwardly facing cam surface 800 which is adapted to engage the stop pin 798.

It will thus `be apparent that when the solenoid '786 is energized, the core 7 89 thereof and the latch member 79l will ybe drawn electrically downwardly and, hence, the stop lever 6%7, through engagement of the portion 793 thereof by the shoulder 792 on said latch member, will be rocked downwardly about its pivot 686 away from the cam disc 633 and thereby release said dise. Simultaneously with such release of the cam disc by the stop lever 687, the faster speed feed roller ddl is rotated, Upon continued downward pull of the core 739 and the latch member 791, the cam surface 866* on said latch member will engage the stop pin 798 and, hence, said latch member will be cammed out of engagement with the stop lever 687, whereupon said stop lever will be returned to its original position .by the contracting action of the spring 689 into the path of rotation of the succeeding shoulder 685 on the cam disc d3?! to stop said disc after it `and the feed roller `637i has made one-half of a revolution. When the solenoid 786 is thereafter deenergized, as will be hereinafter explained in connection with the description of the electrical control circuit for the machine, the core 789 or" said solenoid and the latch member 7% will be raised relative to the stop lever 687 by the contracting action of the spring 796 until the shoulder 792 on said latch member is clear of the portion 793 of said stop lever at which time the stop pin 798 is engaged by the shoulder 799 on the latch member. Thereupon, the latch member 791 is rocked toward and into engagement wit-h the portion 793 of the stop lever 687 by the contracting action of the spring 794, thus restoring said latch member to its original position in readiness to again actuate said stop lever when the solenoid 786 is again energized during the next cycle of operation of the machine.

FILM STRIP SEVERING AND FLM FRAME TRANS- FERRNG ANB MOUNTNG MECHANISM FIGS. 1, and 3 to 9, inclusive From the film strip guide 595, the film strip 575, fed and registered as above described by the coordinated actions of the photo-electric cell 766 .and the primary and secondary feeding means comprising the feed roller 674:A and pressure roller 6%, and the feed rooler 681 and pressure roller 93, respectively, is presented to the mechanism 2G such that the leading image-bearing portion or frame thereof is accurately positioned for severance of said portion on and substantially centrally of the linespace 577 between said portion and the next following image-bearing portion. The mechanism 2t?, in addition to the film strip severing means, includes carrier means for transferring the severed image-bearing frame of the film strip S75 to a position below the card 5b in vertical alignment with the aperture 6in said card and for mounting said frame vertically in said aperture and against the adhesive marginal portion of the adhesive sheet 7 on the card, and anvil means arranged above the card for holding the latter against upward movement and providing a backing for the adhesive sheet during mounting of the severed film `frame in said card by said carrier means. The vfilm strip severing means, the film frame carrier means and the anvil means are comprised by the following instruinentalities which are constructed, assembled, mounted and operated as follows.

The frame 649, previously referred to, of the mechanism 20 is mounted on the base plate or platform 22 and consists of a lower section 801 and an upper section 892 which is bolted or otherwise suitably secured to said lower section at the top thereof. The frame 640 and consequently the mechanism Ztl is quickly and easily located in proper position longitudinally and laterally of the machine by `a `key S03 and a stop block 3M having threaded therein an adjustable stop bolt 895, said key and said block being suitably secured to the upper surface of the platform 22. The frame 64@ is provided 1n the lower surface of the lower section 891 thereof wit-h a suitable keyway 866 to receive the key 803, and when so engaged, said frame is moved along said key and the platform 22 until it contacts the stop bolt 865. Following this, the frame dat) is immovably bolted to the platform 22.

The various operable parts of the mechanism 20 are actuated in proper timed relation from a short shaft 897 which extends longitudinally of the machine and transversely of the frame 640 and is journalled in suitable bearings in the lower section SG1 of said frame. The shaft 307 is located coaxially with the shaft 379, 'and said shafts are connected together by a conventional disc-type coupling having one part 808 which is keyed and suitably secured to the shaft 379 and another part 809 which is bolted to the part 808 .and is keyed and suitably secured to the shaft 807. The shaft 807 forms in effect .a further extension of the cam shaft 50 and, hence, it is also driven to make one complete revolution for each cycle of operation of the machine and may :be correctly referred to as the cam shaft of the mechanism 20.

Located between the frame 640 and the coupling 8&8, 809 is a cam 810 which is bolted or otherwise suitably secured to the hub 81d. of a face cam 812 to be hereinafter referred to and which is keyed on and suitably secured to the cam shaft 897. The cam 810 engages a cam follower 813 which is journalled on and at the free lower end of one arm 314 of a bell-crank lever 815 the other arm of which is indicated at 816. This bell-crank lever 81S is suitably secured to a stub shaft 817 which is journalled at opposite ends thereof in suitable bearings in the lower section 801 of the frame 649. The arm 816 of the lever 815 extends upwardly from the pivotal axis 817 and has pivot-ally connected thereto at the upper free end thereof .the rear end of a horizontal link 81S. The frontend of this link S18 is pivotally connected to the free lower end of one arm 819 of a bell-crank lever 82@ the other arm of which is indicated at 821. This bell-crank lever 820 is suitably secured to a stub shaft S22 which is journalled at opposite ends thereof in suitable bearings in the upper section S132 of the frame 64?. The arm 821 of the lever 820 projects toward the front of the frame 54h .and has adjustably threaded in the free end thereof a tappet 323 which engages the .upper end of a vertical stern 824 and .is locked in adjusted position by a lock nut 525. The stem S24 is slidably mounted for vertical up and down movement in a bearing block 826 which is disposed between and is bolted or otherwise suitably secured to two vertically disposed side plates 827 and 828 which are bolted or otherwise suitably secured to the upper section 332 of the frame 640. The side plates S27 and 828 are disposed at right angles to the line of travel of the cards on the conveyor, and they project toward the back of the frame 649 for a purpose to be hereinafter described. With the card b in its arrested position against the stop finger 237, the bearing block 826 and the side plates S27 and S28 are symmetrically disposed at opposite sides of the transverse center line of the aperture 6 in said card, 4and said plates are spaced apart a distance slivhtly in excess of the length or longer dimension of said card aperture.

The stem 824 projects downwardly beyond the bearing block S26, and said stem has secured thereto or formed integrally therewith at the lower end thereof a rectangular holder S29 which is positioned so that two opposed sides thereof are parallel to the side plates 827 and 82S. Surrounding the projecting upper end of the stem 824 is a coil compression spring 830 having one end thereof engaging against the bearing block 826 and the opposite end engaging against a snap ring 831 which is engaged in a suitable annular groove formed in said stern. The spring 33d functions to yieldingly urge the stem 824 and holder 829 upwardly to their normal raised positions shown in FIG. 7, and to also yielding hold the cam follower. 813 in engagement with the cam 810.

Bolted to the side of the holder 829 facing the film strip guide 59S is a fiat knife blade 832, and bolted to the opposite side of said holder is another fiat knife blade 333. The knife blades 832 and 833 are vertically positioned on the holder 829 such that the lower surfaces thereof are flush with the lower fiat surface of said holder. Cooperating with the knife blades 832 and 833 are stationary knife blades 834 and 835, respectively. These knife blades 834` and 83S are recessed into the inner surfaces of the side plates S27 and 828 and they are preferably tipped at a slight angle in a vertical plane to effect a shearing action. At least the outer lower edges of the knife blades S32 and 833, and the confronting inner upper edges of the knife blades 834 and 83S are formed as cutting edges, but in the illustrated embodiment, all four longitudinal edges of each of the knife blades are formed as cutting edges so as to prolong the use of said blades in the machine before replacements thereof are necessary. The film strip guide 595 extends to the side plate 827, and said plate and the side plate 82S are formed with transversely extending horizontally disposed film strip receiving passages 836 and S37, respectively. The lower surfaces of the passages S36 and 837 are flush with the upper surfaces of the stationary knife blades 834 and 335, respectively, and in the normal raised or retracted positions of the movable knife blades 832 and 833 the latter blades are spaced upwardly from the stationary knife blades 834 and 835, respectively.

The film strip 575 as advanced along the guide 595 by the primary and secondary feed rollers 674 and 681, respectively, as above described, passes from said guide through the passage 836 in the side plate 527, over the stationary knife blade S34, across the space between'said knife blade and the other stationary knife blade 835, and over the latter knife blade, and when such advancing movement of said film strip is stopped, the leading edge of the film strip will slightly overlie the stationary knife blade 835, and the center of the line-space 577 immediately following the leading image-bearing portion of said strip will substantially overlie the active cutting edge of the stationary blade 834. It will thus be apparent that when the cam follower $13 is thereafter engaged by the high part of the cam 819 through continued rotation of said cam, the holder S29, through the described operating connections therefor with said cam, will be lowered to move the knife blades S32 and S33 thereon past the lowest points of the active cutting edges of the stationary knife blades 834 and 835, respectively. Under these conditions, the leading image-bearing portion of the film strip V575' will be shearingly severed from said strip on the line-space 577 by the cooperating knives 832 and 334, and said portion will be shearingly trimmed to a given size at the leading edge thereof by the cooperating knife blades 333 and 835' so that the severed image-bearing portion or frame will accurately lit between the end walls of the aperture 6 in the card 5b, as hereinafter described. Upon continued rotation of the cam S10 and engagement of the cam follower 813 with the low part of said cam, the movable knife blades 332 and S33 are raised or retracted to their original positions by the expanding action of the spring 335i in readiness to again act on the film strip 575 during the next cycle of operation of the machine when said film strip has again been advanced to position the next following image-bearing portion thereof in registry with said knife blades and the stationary knife blades 834 and 835, at which time the above-described operations are repeated. The lower surfaces of the passages 836 and S37 are preferably charnfered at the outer edges thereof so as to respectively lead the film strip 575 into the passage S36 and to eject the trimmings or shavings of said strip from within the passage 837.

The severed and trimmed image-bearing portion of the film strip 575 is deposited by the movable knife blades 832 and 833 and the holder 829 upon a carrier or shuttle which is normally located between the knife blades 334 and S35 and is in the form of a rectangular vacuum head 838, best seen in FIG. 9, having suitably secured to the upper surface thereof a flanged, rectangular, perforated plate 339. The length and width of the perforated plate S39 is substantially the same as the length and Width of the severed and trimmed image-bearing portion of the film strip 575 and slightly smallerv than the length and width of the aperture 6 in the cards 5 so as to enable movement of said plate with said image-bearing portion into said card aperture, as hereinafter described. T he perforations in the plate 839 communicate with a shallow chamber 846 formed in the lower surface of said plate, and said chamber, in turn, communicates with a vertically disposed passage S41 formed in the head 838.

The carrier 838, 839 is shown in full lines in FIG. 7 in the lowered rearmost positions which it occupies with respect to the stationary knife blades 834 and 83S, and it will be noted that in such positions, the carrier plate 839 is located centrally between the opposite ends of said knife blades and directly below the position occupied by the film strip 575. When the carrier S38, 839 is actuated during the normal operation of the machine, as hereinafter described, it is moved upwardly an extent to bring the perforated plate 839 to the broken line position thereof shown in FIG. 7 in which the upper surface of said plate is disposed slightly below the lowermost active points of the cutting edges of the stationary knife blades 834 and 835 so as to directly receive the severed and trimmed image-bearing portion of the film strip 575. After receiving the severed and trimmed image-bearing portion of the iilm strip 575 and said portion is gripped by vacuum by the carrier plate 839, the carrier is lowered and moved longitudinally of the frame 64b to the left as viewed in FIG. 7, an extent to bring the carrier plate with the imagebearing portion thereon to a position in which it is directly below and in accurate registry with the open end of the aperture 6 in the card 5b resting on the card supporting plate 172, as shown in broken lines in FIG. 7. Then and finally, the carrier 838, S39 with the severed and trimmed image-bearing portion of the lm strip 575 adhering by vacuum to the plate 339 is moved upwardly an extent so as to mount said image-bearing portionV in the aperture 6 in the card b and to press the same against the adhesive sheet 7 on said card, as shown in broken lines in FIG. 7. lust before or at the same time that the severed and trimmed image-bearingV portion of the film strip 57S is applied by the carrier 9333, 839 to the adhesive sheet 7 on the card 5b, vacuum in said carrier is broken to release said image-bearing portion. After the image-bearing portion of the film strip 575 is applied to the adhesive sheet 7 on the card 5b, the carrier S38, S39 is lowered, retracted and raised in readiness to receive the next severed and trimmed image-bearing portion of the film strip 575 during the next cycle of operation of the machine, at which time the above-described operations are repeated to mount said image-bearing portion in the next card 5b which has been previously advanced along the conveyor and into engagement with the stop finger 237.

The carrier S33, S39 is slidably mounted on two spaced parallel horizontal rods 3-42 which extend longitudinally of the frame 64S from a position spaced rearwardly of the knife blades S32, 833, 834 and 335 to a position beneath the card supporting plate 172 and beyond the normal position occupied by the card 5b on said plate. The rods 842 are slidably received in suitable bearings in the carrier head 33S, and said rods are suitably secured at the rear ends thereof to and at the upper free end of a vertical arm S43 which is pivotally connected at the lower end thereof by a pin 844 with one arm S45 of a lever 846 having wo other arms 847 and 84S. The arm 847 of the lever S46 extends downwardly at an angle toward the back of the frame 64d, and the arm 84S of said lever extends downwardly at right angles to the arm 345 which extends toward the front of said frame. The lever 846 is pivotally mounted on a transverse pin S49 which is suitably secured at opposite ends thereof in the lower section Sill of the frame 640. The arm 348 of the lever S46 `has pivotally connected to the lower free end thereof by a pin 859 the rear end of a horizontal link S51 the front end of which is pivotally connected by a pin S52 to the lower free end of one arm 3530i a bellcrank lever S54 having another arm 35:3 which extends toward the front of the frame 64). The bell-crank lever CII S54 is Ypivoially mounted on a transverse pin SSLS which is suitably secured at opposite ends thereof in the lower section Sill of the frame 640. Pivotally connected by a pin 857 to the arm S55 of the lever 85d is the forked lower end of an upwardly extending arm 85d. This arm S58 has suitably secured therein at the upper free end thereof the forward ends of the rods 812-2. The described mounting for the carrier 838, 539 thus provides for straight-line vertical and horizontal reciprocating movements of said carrier, as and for the purpose above decribed. It is evident that vertical reciprocating movement will be imparted to the carrier 33S, 839 twice during each cycle of operation of the machine, and that horizontal reciprocating movement will be imparted to said carrier once during said cycle.

For this purpose, there is bolted or otherwise suitably secured to the hub Sil of the box cam 82 a double cam 859 which engages a cam follower 3130 journalled on a holder S61 which is releasably clamped to and at the free end of the arm 847 of the lever 846. The arm 647 has threaded therein an adjusting bolt 562 which engages the holder S61 and is locked in adjusted position by a lock nut S63. The cam follower dei) may thus be adjusted relative to the lever 846 toward and away from the cam S59 by rotating the bolt 362 in the proper direction, whereby the desired extent of upward movement of the carrier 83S, 83% to receive the severed film section, and the desired degree of pressure applied thereby in mounting said film section in the card 5b may be accurately and conveniently achieved. The carrier 83.3, 339 is yieldingly urged in an upward direction, and the cam follower S60 is yieldingly held in engagement with the cam 859, by a vertically disposed spring-pressed rod 364 which is pivotallyconnected at the upper end thereof to and at the free end of the arm S55 of the bell-crank lever 351i. The lower end of the rod 864 extends through a suitable clearance opening formed in a web S of the lower section 861 of the frame 64h, and said rod has threaded thereon adjusting nuts S66. The spring for the rod 8d4 is of the coil compression type indicated at di?? and surrounds said rod between washers 86S and 55% which are loosely carried by the rod and engage the nuts S66 and the web 865, respectively. It will be apparent that the carrier S38, 839 will be yieldingly raised bodily by the spring-pressed rod S64 under the control of the cam 859, and will be positively lowered bodily by said cam, and that through continued rotation of the cam S59 such raising and lowering movements will occur twice at spaced intervals during each cycle of operation of the machine, i.e., when the carrier is disposed in its rearrnost iilm section receiving position and again when it is disposed in its foremost film section mounting position.

Horizontal reciprocating movement is imparted to the carrier S38, `S39 along the rods 342 by the face cam 8112 previously referred to. F or this purpose, the cam groove or path S70 of the cam 812 has engaged therein a cam follower 87l which is journalled on and at the free upper end of a vertically disposed arm 872. This arm 872 is forked at the lower end thereof to extend on opposite sides of a block S73 which is bolted or otherwise suitably secured to the lower section Sill of the frame 649, said arm being pivotally mounted at said end on a pin 874- which is suitablysecured in said block and projects beyond opposite sides thereof. Bolted to the front side of the arm 872 is a relatively thin flat bar 75 which extends upwardly from said arm and has its upper end twisted, as indicated at 376, 90 from the normal plane of said bar. A retaining strap L77 is preferably employed to hold the lower part of the bar i575 flatwise against the arm 872. The upper twisted end 876 of the bar 375 projects into a suitable slot 378 formed in the carrier head 83S, and said bar has journalled thereon at said end and at opposite sides thereof rollers S79 which are cngaged in corresponding recesses S80 also formed in said head. It will thus be apparent that the lever comprising 

1. IN AN APPARATUS FOR OPERATING ON CARDS EACH HAVING AN APERTURE THEREIN AND AN ADHESIVE SHEET SECURED OVER SAID APERTURE AT ONE FACE OF EACH CARD, THE COMBINATION OF A CONTINUOUSLY DRIVEN CONVEYOR MEANS FOR ADVANCING SUCCESSIVE CARDS IN SPACED RELATON ALONG A PREDETERMINED PATH, STOP MEANS ARRANGED ALONG SAID PATH, MEANS FOR OPERATING SAID STOP MEANS FOR EACH CYCLE OF OPERATION OF THE APPARATUS FOR ARRESTING THE MOVEMENT OF EACH CARD FOR A PREDETERMINED INTERVAL AND THEREAFTER RELEASING SAID CARD FOR FURTHER MOVEMENT BY SAID CONVEYOR MEANS, A STRIP SEVERING MEANS, MEANS FOR OPERATING SAID SEVERING MEANS ONCE FOR EACH SAID CYCLE OF OPERATION, AN ENDLESS STRIP OF MATERIAL HAVING A PLURALITY OF REGISTER MARKS SPACED THEREALONG, A FIRST MEANS TO FEED SAID STRIP IN A PREDETERMINED PATH TOWARD SAID SEVERING MEANS AT A FIRST SPEED IN TIMED RELATION TO THE OPERATION OF SAID SEVERING MEANS, A SCANNING MEANS POSITIONED IN SAID STRIP PATH A PREDETERMINED DISTANCE FROM SAID SEVERING MEANS, A SECOND MEANS TO FEED A PREDETERMINED LENGTH OF SAID STRIP 